Question:medium

Identify the aromatic compounds among the given set based on Huckel's rule:

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Presence of even one \(sp^3\) carbon in the ring usually breaks aromatic conjugation.
Updated On: May 20, 2026
  • I, III, IV
  • I, II, IV
  • I, II, III
  • II, III, IV
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The Correct Option is B

Solution and Explanation

Understanding the Concept: According to Huckel’s rule, a compound is aromatic if:
it is cyclic,
planar,
fully conjugated,
contains \((4n+2)\pi\) electrons.

Step 1: Cyclopropenyl cation.
It contains: \[ 2\pi \text{ electrons} \] For: \[ n=0 \] \[ 4n+2 = 2 \] Hence aromatic.
Step 2: Naphthalene.
Naphthalene contains: \[ 10\pi \text{ electrons} \] For: \[ n=2 \] \[ 4(2)+2=10 \] Hence aromatic.
Step 3: Cyclopentadiene.
Cyclopentadiene contains one: \[ sp^3 \] hybridized carbon atom. Therefore conjugation is interrupted. Hence it is non-aromatic.
Step 4: Azulene.
Azulene is fully conjugated and contains: \[ 10\pi \text{ electrons} \] Thus it satisfies Huckel’s rule and is aromatic. Therefore aromatic compounds are: \[ I,\ II,\ IV \]
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